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100   $a20210901d2012      uy         0
101 0 $aeng
135   $aurcnu||||||||
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aEfficient Water Management in Water Cooled Reactors
205   $a1st ed.
210  1$aLanham :$cInternational Atomic Energy Agency,$d2012.
210  4$dİ2012.
215   $a1 online resource (131 pages)
311 08$a92-0-132610-6 
327   $aCover -- FOREWORD -- CONTENTS -- 1. INTRODUCTION -- 1.1. BACKGROUND -- 1.2. OBJECTIVES AND SCOPE -- 1.3. STRUCTURE -- 2. CURRENT PRACTICES OF WATER USE AND CONSUMPTION IN MAJOR PHASES OF A NUCLEAR POWER PLANT -- 2.1. WATER USE AND CONSUMPTION DURING CONSTRUCTION -- 2.2. WATER USE AND CONSUMPTION DURING COMMISSIONING -- 2.3. WATER USE AND CONSUMPTION DURING OPERATION -- 2.4. WATER USE AND CONSUMPTION DURING SHUTDOWN STATE -- 2.5. WATER USE AND CONSUMPTION DURING DECOMMISSIONING -- 2.6. CONCLUSION -- 3. TECHNOLOGIES AVAILABLE FOR COOLING SYSTEMS -- 3.1. OPEN LOOP COOLING -- 3.2. CLOSED COOLING SYSTEMS -- 3.3. BASIS FOR SELECTION OF COOLING SYSTEMS -- 3.4. EXAMPLES OF POWER PLANTS OPERATING WITH WET DRY OR HYBRID COOLING SYSTEMS -- 3.5. CONCLUSION -- 4. TECHNOLOGIES AVAILABLE FOR PRODUCTION OF INDUSTRIAL AND POTABLE WATER -- 4.1. INDUSTRIAL AND POTABLE WATER USE IN NPPs -- 4.2. TECHNOLOGIES FOR RAW WATER TREATMENT -- 4.3. TECHNOLOGIES FOR PRODUCTION OF INDUSTRIAL AND POTABLE WATER -- 4.4. CONCLUSION -- 5. STRATEGIES FOR REDUCTION OF WATER USE AND CONSUMPTION IN NUCLEAR POWER PLANTS -- 5.1. REDUCTION OF WATER USE AND CONSUMPTION IN COOLING SYSTEMS -- 5.2. REDUCTION OF INDUSTRIAL AND POTABLE WATER USE AND CONSUMPTION -- 5.3. REDUCTION OF WATER USE AND CONSUMPTION FOR WASTE DILUTION -- 5.4. STRATEGIES FOR OPTIMIZING WATER USE AND CONSUMPTION IN MAJOR PHASES OF  A NUCLEAR POWER PLANT -- 5.5. CONCLUSION -- 6. FUTURE NPP DESIGNS FOR IMPROVED WATER MANAGEMENT -- 6.1. NEW CONCEPTS OF WATER COOLED REACTOR SYSTEMS AND COMPONENTS  TO IMPROVE WATER MANAGEMENT -- 6.2. TRENDS IN SPENT FUEL MANAGEMENT -- 6.3. NEW TECHNOLOGIES FOR REDUCING ACTIVE LIQUID WASTE DILUTION REQUIREMENTS -- 6.4. NEXT GENERATION REACTORS (GENERATION IV) -- 6.5. CONCLUSION -- 7. CONCLUSION -- Appendix -  CURRENT PRACTICES ON WATER USE/CONSUMPTION AND MANAGEMENT IN NPPs.
327   $aA.1. TURKEY POINT NUCLEAR POWER PLANT -- A.2. PALO VERDE NUCLEAR POWER PLANT -- A.3. DIABLO CANYON NUCLEAR POWER PLANT -- A.4. WATER USE DURING DECOMMISSIONING BASED ON US PRACTICES -- A.5. VALUES REGARDING COOLING WATER SYSTEMS OF SOME EXEMPLARY PLANTS -- GLOSSARY -- REFERENCES -- ABBREVIATIONS -- CONVERSION FACTORS -- CONTRIBUTORS TO DRAFTING AND REVIEW.
330   $aIn an effort to illustrate the sustainability of nuclear power, this publication discusses current practices on water requirements in nuclear power plants, possible future trends in design of water cooled reactors and the technologies employed. It analyses best practices and strategies for lower water withdrawal rates and presents the trade-off between production of electricity and water use and consumption, hence types of cooling systems to be selected. The book thus aims at enhancing the understanding of the issues related to water use, consumption, and management in a big picture.
606   $aWater conservation$7Generated by AI
606   $aNuclear power plants$7Generated by AI
615  0$aWater conservation
615  0$aNuclear power plants
700   $aAuthor)$b IAEA (Corporate$01823353
701   $aEditor)$b IAEA (Corporate$01823354
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9911006771103321
996   $aEfficient Water Management in Water Cooled Reactors$94389961
997   $aUNINA